/*   Copyright (C) 2011 Wolfgang Hankeln, Norma J. Wendel
 *
 *   This file is part of CDinFusion.
 *
 *   CDinFusion is free software: you can redistribute it and/or
 *   modify it under the terms of the GNU Lesser General Public 
 *   License in version 3 (LGPL3) as published by the Free Software
 *   Foundation version 3 of the License.
 *
 *   CDinFusion is distributed in the hope that it will be useful,
 *   but WITHOUT ANY WARRANTY; without even the implied warranty of
 *   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
 *   Lesser General Public License for more details.
 *
 *   You should have received a copy of the Lesser General Public
 *   License along with CDinFusion; see the file COPYING. If not,
 *   write to the Free Software Foundation, 59 Temple Place - Suite 330,
 *   Boston, MA 02111-1307, USA or see <http://www.gnu.org/licenses/>.
 *   
 *   If you have any questions, send an email to: megx@mpi-bremen.de.
 */
package org.cdinfusion.data.environment;

public class Water implements Environment {

	private String alt;

	private String depth;

	private String diss_org_carb;

	private String diss_org_nitro;

	private String elev;

	private String sodium;

	private String temp;

	private String tidal_stage;

	private String tot_diss_nitro;

	private String diether_lipids;

	private String aminopept_act;

	private String atmospheric_data;

	private String bacteria_carb_prod;

	private String alkalinity;

	private String ammonium;

	private String calcium;

	private String carb_nitro_ratio;

	private String chlorophyll;

	private String density;

	private String diss_oxygen;

	private String chem_administration;

	private String chloride;

	private String current;

	private String diss_carb_dioxide;

	private String diss_hydrogen;

	private String diss_inorg_phosp;

	private String diss_inorg_nitro;

	private String diss_inorg_carb;

	private String alkyl_diethers;

	private String bishomohopanol;

	private String biomass;

	private String bromide;

	private String glucosidase_act;

	private String light_intensity;

	private String magnesium;

	private String mean_frict_vel;

	private String mean_peak_frict_vel;

	private String nitrite;

	private String nitro;

	private String org_nitro;

	private String oxy_stat_samp;

	private String part_org_carb;

	private String part_org_nitro;

	private String n_alkanes;

	private String nitrate;

	private String org_carb;

	private String org_matter;

	private String perturbation;

	private String photon_flux;

	private String ph;

	private String samp_store_dur;

	private String samp_store_loc;

	private String samp_store_temp;

	private String potassium;

	private String petroleum_hydrocarb;

	private String phosphate;

	private String phosplipid_fatt_acid;

	private String pressure;

	private String primary_prod;

	private String phaeopigments;

	private String redox_potential;

	private String salinity;

	private String silicate;

	private String soluble_react_phosp;

	private String suspend_part_matter;

	private String sulfate;

	private String sulfide;

	private String tot_depth_water_col;

	private String tot_inorg_nitro;

	private String tot_part_carb;

	private String tot_phosp;

	private String organism_count;

	private String misc_param;

	private String tot_nitro;

	public String getAlt() {
		return alt;
	}

	public void setAlt(String alt) {
		this.alt = alt;
	}

	public String getDepth() {
		return depth;
	}

	public void setDepth(String depth) {
		this.depth = depth;
	}

	public String getDiss_org_carb() {
		return diss_org_carb;
	}

	public void setDiss_org_carb(String diss_org_carb) {
		this.diss_org_carb = diss_org_carb;
	}

	public String getDiss_org_nitro() {
		return diss_org_nitro;
	}

	public void setDiss_org_nitro(String diss_org_nitro) {
		this.diss_org_nitro = diss_org_nitro;
	}

	public String getElev() {
		return elev;
	}

	public void setElev(String elev) {
		this.elev = elev;
	}

	public String getSodium() {
		return sodium;
	}

	public void setSodium(String sodium) {
		this.sodium = sodium;
	}

	public String getTemp() {
		return temp;
	}

	public void setTemp(String temp) {
		this.temp = temp;
	}

	public String getTidal_stage() {
		return tidal_stage;
	}

	public void setTidal_stage(String tidal_stage) {
		this.tidal_stage = tidal_stage;
	}

	public String getTot_diss_nitro() {
		return tot_diss_nitro;
	}

	public void setTot_diss_nitro(String tot_diss_nitro) {
		this.tot_diss_nitro = tot_diss_nitro;
	}

	public String getDiether_lipids() {
		return diether_lipids;
	}

	public void setDiether_lipids(String diether_lipids) {
		this.diether_lipids = diether_lipids;
	}

	public String getAminopept_act() {
		return aminopept_act;
	}

	public void setAminopept_act(String aminopept_act) {
		this.aminopept_act = aminopept_act;
	}

	public String getAtmospheric_data() {
		return atmospheric_data;
	}

	public void setAtmospheric_data(String atmospheric_data) {
		this.atmospheric_data = atmospheric_data;
	}

	public String getBacteria_carb_prod() {
		return bacteria_carb_prod;
	}

	public void setBacteria_carb_prod(String bacteria_carb_prod) {
		this.bacteria_carb_prod = bacteria_carb_prod;
	}

	public String getAlkalinity() {
		return alkalinity;
	}

	public void setAlkalinity(String alkalinity) {
		this.alkalinity = alkalinity;
	}

	public String getAmmonium() {
		return ammonium;
	}

	public void setAmmonium(String ammonium) {
		this.ammonium = ammonium;
	}

	public String getCalcium() {
		return calcium;
	}

	public void setCalcium(String calcium) {
		this.calcium = calcium;
	}

	public String getCarb_nitro_ratio() {
		return carb_nitro_ratio;
	}

	public void setCarb_nitro_ratio(String carb_nitro_ratio) {
		this.carb_nitro_ratio = carb_nitro_ratio;
	}

	public String getChlorophyll() {
		return chlorophyll;
	}

	public void setChlorophyll(String chlorophyll) {
		this.chlorophyll = chlorophyll;
	}

	public String getDensity() {
		return density;
	}

	public void setDensity(String density) {
		this.density = density;
	}

	public String getDiss_oxygen() {
		return diss_oxygen;
	}

	public void setDiss_oxygen(String diss_oxygen) {
		this.diss_oxygen = diss_oxygen;
	}

	public String getChem_administration() {
		return chem_administration;
	}

	public void setChem_administration(String chem_administration) {
		this.chem_administration = chem_administration;
	}

	public String getChloride() {
		return chloride;
	}

	public void setChloride(String chloride) {
		this.chloride = chloride;
	}

	public String getCurrent() {
		return current;
	}

	public void setCurrent(String current) {
		this.current = current;
	}

	public String getDiss_carb_dioxide() {
		return diss_carb_dioxide;
	}

	public void setDiss_carb_dioxide(String diss_carb_dioxide) {
		this.diss_carb_dioxide = diss_carb_dioxide;
	}

	public String getDiss_hydrogen() {
		return diss_hydrogen;
	}

	public void setDiss_hydrogen(String diss_hydrogen) {
		this.diss_hydrogen = diss_hydrogen;
	}

	public String getDiss_inorg_phosp() {
		return diss_inorg_phosp;
	}

	public void setDiss_inorg_phosp(String diss_inorg_phosp) {
		this.diss_inorg_phosp = diss_inorg_phosp;
	}

	public String getDiss_inorg_nitro() {
		return diss_inorg_nitro;
	}

	public void setDiss_inorg_nitro(String diss_inorg_nitro) {
		this.diss_inorg_nitro = diss_inorg_nitro;
	}

	public String getDiss_inorg_carb() {
		return diss_inorg_carb;
	}

	public void setDiss_inorg_carb(String diss_inorg_carb) {
		this.diss_inorg_carb = diss_inorg_carb;
	}

	public String getAlkyl_diethers() {
		return alkyl_diethers;
	}

	public void setAlkyl_diethers(String alkyl_diethers) {
		this.alkyl_diethers = alkyl_diethers;
	}

	public String getBishomohopanol() {
		return bishomohopanol;
	}

	public void setBishomohopanol(String bishomohopanol) {
		this.bishomohopanol = bishomohopanol;
	}

	public String getBiomass() {
		return biomass;
	}

	public void setBiomass(String biomass) {
		this.biomass = biomass;
	}

	public String getBromide() {
		return bromide;
	}

	public void setBromide(String bromide) {
		this.bromide = bromide;
	}

	public String getGlucosidase_act() {
		return glucosidase_act;
	}

	public void setGlucosidase_act(String glucosidase_act) {
		this.glucosidase_act = glucosidase_act;
	}

	public String getLight_intensity() {
		return light_intensity;
	}

	public void setLight_intensity(String light_intensity) {
		this.light_intensity = light_intensity;
	}

	public String getMagnesium() {
		return magnesium;
	}

	public void setMagnesium(String magnesium) {
		this.magnesium = magnesium;
	}

	public String getMean_frict_vel() {
		return mean_frict_vel;
	}

	public void setMean_frict_vel(String mean_frict_vel) {
		this.mean_frict_vel = mean_frict_vel;
	}

	public String getMean_peak_frict_vel() {
		return mean_peak_frict_vel;
	}

	public void setMean_peak_frict_vel(String mean_peak_frict_vel) {
		this.mean_peak_frict_vel = mean_peak_frict_vel;
	}

	public String getNitrite() {
		return nitrite;
	}

	public void setNitrite(String nitrite) {
		this.nitrite = nitrite;
	}

	public String getNitro() {
		return nitro;
	}

	public void setNitro(String nitro) {
		this.nitro = nitro;
	}

	public String getOrg_nitro() {
		return org_nitro;
	}

	public void setOrg_nitro(String org_nitro) {
		this.org_nitro = org_nitro;
	}

	public String getOxy_stat_samp() {
		return oxy_stat_samp;
	}

	public void setOxy_stat_samp(String oxy_stat_samp) {
		this.oxy_stat_samp = oxy_stat_samp;
	}

	public String getPart_org_carb() {
		return part_org_carb;
	}

	public void setPart_org_carb(String part_org_carb) {
		this.part_org_carb = part_org_carb;
	}

	public String getPart_org_nitro() {
		return part_org_nitro;
	}

	public void setPart_org_nitro(String part_org_nitro) {
		this.part_org_nitro = part_org_nitro;
	}

	public String getN_alkanes() {
		return n_alkanes;
	}

	public void setN_alkanes(String n_alkanes) {
		this.n_alkanes = n_alkanes;
	}

	public String getNitrate() {
		return nitrate;
	}

	public void setNitrate(String nitrate) {
		this.nitrate = nitrate;
	}

	public String getOrg_carb() {
		return org_carb;
	}

	public void setOrg_carb(String org_carb) {
		this.org_carb = org_carb;
	}

	public String getOrg_matter() {
		return org_matter;
	}

	public void setOrg_matter(String org_matter) {
		this.org_matter = org_matter;
	}

	public String getPerturbation() {
		return perturbation;
	}

	public void setPerturbation(String perturbation) {
		this.perturbation = perturbation;
	}

	public String getPhoton_flux() {
		return photon_flux;
	}

	public void setPhoton_flux(String photon_flux) {
		this.photon_flux = photon_flux;
	}

	public String getPh() {
		return ph;
	}

	public void setPh(String ph) {
		this.ph = ph;
	}

	public String getSamp_store_dur() {
		return samp_store_dur;
	}

	public void setSamp_store_dur(String samp_store_dur) {
		this.samp_store_dur = samp_store_dur;
	}

	public String getSamp_store_loc() {
		return samp_store_loc;
	}

	public void setSamp_store_loc(String samp_store_loc) {
		this.samp_store_loc = samp_store_loc;
	}

	public String getSamp_store_temp() {
		return samp_store_temp;
	}

	public void setSamp_store_temp(String samp_store_temp) {
		this.samp_store_temp = samp_store_temp;
	}

	public String getPotassium() {
		return potassium;
	}

	public void setPotassium(String potassium) {
		this.potassium = potassium;
	}

	public String getPetroleum_hydrocarb() {
		return petroleum_hydrocarb;
	}

	public void setPetroleum_hydrocarb(String petroleum_hydrocarb) {
		this.petroleum_hydrocarb = petroleum_hydrocarb;
	}

	public String getPhosphate() {
		return phosphate;
	}

	public void setPhosphate(String phosphate) {
		this.phosphate = phosphate;
	}

	public String getPhosplipid_fatt_acid() {
		return phosplipid_fatt_acid;
	}

	public void setPhosplipid_fatt_acid(String phosplipid_fatt_acid) {
		this.phosplipid_fatt_acid = phosplipid_fatt_acid;
	}

	public String getPressure() {
		return pressure;
	}

	public void setPressure(String pressure) {
		this.pressure = pressure;
	}

	public String getPrimary_prod() {
		return primary_prod;
	}

	public void setPrimary_prod(String primary_prod) {
		this.primary_prod = primary_prod;
	}

	public String getPhaeopigments() {
		return phaeopigments;
	}

	public void setPhaeopigments(String phaeopigments) {
		this.phaeopigments = phaeopigments;
	}

	public String getRedox_potential() {
		return redox_potential;
	}

	public void setRedox_potential(String redox_potential) {
		this.redox_potential = redox_potential;
	}

	public String getSalinity() {
		return salinity;
	}

	public void setSalinity(String salinity) {
		this.salinity = salinity;
	}

	public String getSilicate() {
		return silicate;
	}

	public void setSilicate(String silicate) {
		this.silicate = silicate;
	}

	public String getSoluble_react_phosp() {
		return soluble_react_phosp;
	}

	public void setSoluble_react_phosp(String soluble_react_phosp) {
		this.soluble_react_phosp = soluble_react_phosp;
	}

	public String getSuspend_part_matter() {
		return suspend_part_matter;
	}

	public void setSuspend_part_matter(String suspend_part_matter) {
		this.suspend_part_matter = suspend_part_matter;
	}

	public String getSulfate() {
		return sulfate;
	}

	public void setSulfate(String sulfate) {
		this.sulfate = sulfate;
	}

	public String getSulfide() {
		return sulfide;
	}

	public void setSulfide(String sulfide) {
		this.sulfide = sulfide;
	}

	public String getTot_depth_water_col() {
		return tot_depth_water_col;
	}

	public void setTot_depth_water_col(String tot_depth_water_col) {
		this.tot_depth_water_col = tot_depth_water_col;
	}

	public String getTot_inorg_nitro() {
		return tot_inorg_nitro;
	}

	public void setTot_inorg_nitro(String tot_inorg_nitro) {
		this.tot_inorg_nitro = tot_inorg_nitro;
	}

	public String getTot_part_carb() {
		return tot_part_carb;
	}

	public void setTot_part_carb(String tot_part_carb) {
		this.tot_part_carb = tot_part_carb;
	}

	public String getTot_phosp() {
		return tot_phosp;
	}

	public void setTot_phosp(String tot_phosp) {
		this.tot_phosp = tot_phosp;
	}

	public String getOrganism_count() {
		return organism_count;
	}

	public void setOrganism_count(String organism_count) {
		this.organism_count = organism_count;
	}

	public String getMisc_param() {
		return misc_param;
	}

	public void setMisc_param(String misc_param) {
		this.misc_param = misc_param;
	}

	public String getTot_nitro() {
		return tot_nitro;
	}

	public void setTot_nitro(String tot_nitro) {
		this.tot_nitro = tot_nitro;
	}

	public Water(String alt, String depth, String diss_org_carb,
			String diss_org_nitro, String elev, String sodium, String temp,
			String tidal_stage, String tot_diss_nitro, String diether_lipids,
			String aminopept_act, String atmospheric_data,
			String bacteria_carb_prod, String alkalinity, String ammonium,
			String calcium, String carb_nitro_ratio, String chlorophyll,
			String density, String diss_oxygen, String chem_administration,
			String chloride, String current, String diss_carb_dioxide,
			String diss_hydrogen, String diss_inorg_phosp,
			String diss_inorg_nitro, String diss_inorg_carb,
			String alkyl_diethers, String bishomohopanol, String biomass,
			String bromide, String glucosidase_act, String light_intensity,
			String magnesium, String mean_frict_vel,
			String mean_peak_frict_vel, String nitrite, String nitro,
			String org_nitro, String oxy_stat_samp, String part_org_carb,
			String part_org_nitro, String n_alkanes, String nitrate,
			String org_carb, String org_matter, String perturbation,
			String photon_flux, String ph, String samp_store_dur,
			String samp_store_loc, String samp_store_temp, String potassium,
			String petroleum_hydrocarb, String phosphate,
			String phosplipid_fatt_acid, String pressure, String primary_prod,
			String phaeopigments, String redox_potential, String salinity,
			String silicate, String soluble_react_phosp,
			String suspend_part_matter, String sulfate, String sulfide,
			String tot_depth_water_col, String tot_inorg_nitro,
			String tot_part_carb, String tot_phosp, String organism_count,
			String misc_param, String tot_nitro) {
		super();
		this.alt = alt;
		this.depth = depth;
		this.diss_org_carb = diss_org_carb;
		this.diss_org_nitro = diss_org_nitro;
		this.elev = elev;
		this.sodium = sodium;
		this.temp = temp;
		this.tidal_stage = tidal_stage;
		this.tot_diss_nitro = tot_diss_nitro;
		this.diether_lipids = diether_lipids;
		this.aminopept_act = aminopept_act;
		this.atmospheric_data = atmospheric_data;
		this.bacteria_carb_prod = bacteria_carb_prod;
		this.alkalinity = alkalinity;
		this.ammonium = ammonium;
		this.calcium = calcium;
		this.carb_nitro_ratio = carb_nitro_ratio;
		this.chlorophyll = chlorophyll;
		this.density = density;
		this.diss_oxygen = diss_oxygen;
		this.chem_administration = chem_administration;
		this.chloride = chloride;
		this.current = current;
		this.diss_carb_dioxide = diss_carb_dioxide;
		this.diss_hydrogen = diss_hydrogen;
		this.diss_inorg_phosp = diss_inorg_phosp;
		this.diss_inorg_nitro = diss_inorg_nitro;
		this.diss_inorg_carb = diss_inorg_carb;
		this.alkyl_diethers = alkyl_diethers;
		this.bishomohopanol = bishomohopanol;
		this.biomass = biomass;
		this.bromide = bromide;
		this.glucosidase_act = glucosidase_act;
		this.light_intensity = light_intensity;
		this.magnesium = magnesium;
		this.mean_frict_vel = mean_frict_vel;
		this.mean_peak_frict_vel = mean_peak_frict_vel;
		this.nitrite = nitrite;
		this.nitro = nitro;
		this.org_nitro = org_nitro;
		this.oxy_stat_samp = oxy_stat_samp;
		this.part_org_carb = part_org_carb;
		this.part_org_nitro = part_org_nitro;
		this.n_alkanes = n_alkanes;
		this.nitrate = nitrate;
		this.org_carb = org_carb;
		this.org_matter = org_matter;
		this.perturbation = perturbation;
		this.photon_flux = photon_flux;
		this.ph = ph;
		this.samp_store_dur = samp_store_dur;
		this.samp_store_loc = samp_store_loc;
		this.samp_store_temp = samp_store_temp;
		this.potassium = potassium;
		this.petroleum_hydrocarb = petroleum_hydrocarb;
		this.phosphate = phosphate;
		this.phosplipid_fatt_acid = phosplipid_fatt_acid;
		this.pressure = pressure;
		this.primary_prod = primary_prod;
		this.phaeopigments = phaeopigments;
		this.redox_potential = redox_potential;
		this.salinity = salinity;
		this.silicate = silicate;
		this.soluble_react_phosp = soluble_react_phosp;
		this.suspend_part_matter = suspend_part_matter;
		this.sulfate = sulfate;
		this.sulfide = sulfide;
		this.tot_depth_water_col = tot_depth_water_col;
		this.tot_inorg_nitro = tot_inorg_nitro;
		this.tot_part_carb = tot_part_carb;
		this.tot_phosp = tot_phosp;
		this.organism_count = organism_count;
		this.misc_param = misc_param;
		this.tot_nitro = tot_nitro;
	}

	public Water() {
		super();
	}
}
